JPH01116507A - Soft focus lens device - Google Patents

Abstract

PURPOSE:To automatically correct the shift of focus by calculating a moving extent of a lens for focusing so as to offset the shift of a focus generated by a movement of a lens for soft. CONSTITUTION:A photographic lens 1 is constituted of a lens 1-1 for focusing for adjusting a focus by a movement in the optical axis direction and a lens for soft for obtaining selectively normal, soft 1 and soft 2 by a movement in the optical axis direction, sets the driving quantity of a range ring corresponding to a variation of a state of a soft switch 16, and drives the range ring in accordance with its set value. After the driving has been ended, setting of the range ring driving quantity and driving corresponding to a variation of a state of the soft switch 16 are repeated again. As for the focal shift at the time when the state of the soft switch 16 has been varied, the state of the soft switch of the present time and the state of the soft switch of the previous time are compared, and based on a table which has been set in advance, correction quantity is determined.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Application of the Invention) The present invention relates to an improvement in a soft focus lens for a camera that can switch between soft focus and normal or soft focus.

(Background of the Invention) Conventional soft focus lenses have a drawback in that the focus shifts when switching between soft focus and normal, or the degree of soft focus (hereinafter referred to as "soft switching"). For this reason, even if focusing was performed once, if software switching was performed thereafter, the focus would be blurred and re-adjustment would be required. If we tried to solve this problem by changing the structure of the lens barrel, it would become large and complicated, making it unsuitable for practical use.

In recent years, with the development of autofocus technology, it has become relatively easy to refocus, but it sometimes requires operations such as pressing the first stroke of the camera's release button again, or when autofocus is activated after that operation. ,
It takes an accumulation time of the image line sensor using COD etc., arithmetic processing time to calculate the amount and direction to drive the distance ring from the image line sensor signal, or to judge in-focus or out-of-focus. Therefore, there is a delay in the reaction, and there is also a restriction that the camera must remain pointed at the same subject when switching software.

(Object of the Invention) An object of the present invention is to provide a soft focus lens device that can solve the above-mentioned problems and eliminate focus shift due to soft switching.

(Features of the Invention) In order to achieve the above object, the present invention includes a detection means for detecting the movement of the software lens, and a focus adjustment device for canceling out the shift in focus caused by the detected movement of the software lens. and calculation means for calculating the amount of movement of the lens and outputting the calculated amount to the driving means for moving the focusing lens,
The present invention is characterized in that a focus shift caused by software switching is automatically corrected.

(Example of the invention) FIG. 1 shows an embodiment of the invention.

1 is a photographing lens; 1-1 is a focusing lens included in the photographing lens 1 and adjusting the focus by moving in the optical axis direction; 1;
-2 is also included in the photographic lens 1, and is a soft lens that selectively obtains normal, soft) l and soft 2 by moving in the optical axis direction, and 2 is a distance ring (with which the focusing lens l-1 is fixed). 3 is a constant current source; 4 is a light emitting diode that projects light onto the pulse plate 2 in order to detect the amount of movement of the focusing lens 1-1; 5 is a pulse plate 2; 6 is an amplifier that amplifies the signal photoelectrically converted by the photodiode 5; 7 is a motor that drives the distance ring; 8 to 11 are bridges that control the power supply to the motor 7; Transistors 12 and 13 make up the circuit; 12 and 13 are reverse current diodes that short-circuit both ends of the motor 7 together with transistors 10 and 11 during braking; 14 is a microcomputer that commands drive control of the distance ring during autofocus and software switching;
5 is a programmable timer controlled by a microcomputer 14, and 16 is a soft switch having contacts 16-1 and 16-2. When the lens 1-2 is moved, the contact 16-1.16 is connected to the movement as shown in FIG.
-2 is the one that turns on and off, 17 is the film surface of the camera, 18 is an image line sensor for autofocus located at a position optically equivalent to the film surface 17, 19 is an amplifier, and 20 is a signal from the image line sensor 18. This is an AF control device that calculates a defocus amount based on the following and provides it to the microcomputer 14.

In FIG. 1, from the photographic lens l to the soft switch 16
The soft focus lens device consists of the motor 7, transistors 8 to 11, and diodes 12 and 13.
, the microcomputer 14, and the timer 15 are not necessarily provided on the lens side, and some or all of them may be provided on the camera body side.

Figure 2 shows the state of the soft switch 16 when the soft switching is normal, soft 1, and soft 2.
represents a high level, and L represents a low level.

Next, the operation will be explained with reference to flowcharts shown in FIGS. 3 to 5.

The operation begins when the power is turned on, and the microcomputer 14 first sets the initial state in step 21 in FIG. The strength of the reflected light from the rotating pulse plate 2 (the light projected from the light emitting diode 4) is photoelectrically converted by the photodiode 5, and the pulse counter (hereinafter simply referred to as pulse) that counts the pulse signal (hereinafter simply referred to as pulse) that is amplified by the amplifier 6 is used. (built in the microcomputer 14), reset the timer 15, turn off the transistors 8 to 11, that is, stop the motor 7,
The state of the soft switch 16 at that time is read as the "previous soft switch state" and stored in the memory built into the microcomputer 14.

In step 22, as will be detailed later, the soft switch 1
Set the driving amount of the distance ring according to the change in the state of 6.
In step 23, the distance ring is driven according to the set value. After the driving is completed, setting and driving of the distance ring driving amount according to changes in the state of the soft switch 16 are repeated again.

Communication such as the defocus amount from the AF control device N20 is processed by an interrupt. When the microcomputer 14 accepts the 0 communication, the microcomputer 14 interrupts the previous operation and processes the communication. When it is determined that the content is reception of data other than defocus amount data, the process proceeds to step 25, and after performing communication processing in accordance with the received data, the interrupted original operation is resumed. If defocus amount data has been received, a distance ring drive amount is calculated and set from the defocus amount in step 26.

Here, according to FIGS. 4 and 5, the soft switch 16
The setting of the distance ring drive amount according to the change in the state of the distance ring drive and the distance ring drive will be explained in detail.

The setting of the distance ring drive amount according to the change in the state of the soft switch 16 is first performed in step 27, as shown in FIG.
Now, read the state of the soft switch 16.
From the read "current soft switch state" and the stored "previous soft switch state", set the value shown in the table in step 28 in Figure 4 as the distance ring drive amount. , +A changes from software 1 state to software 2
The distance ring driving amount is enough to correct the focal shift when changing to the state, similarly -A is from the soft 2 state to the soft 1 state, +B is from the normal state to the soft 2 state,
-B only corrects the shift in focus when changing from soft 2 state to normal state, +C from normal state to soft 1 state, -0 from software 1 state to normal state. is the distance ring drive amount. Furthermore, if the "current soft switch state" and "previous soft switch state" are equal, that is, if the state of the soft switch 16 has not changed, the distance ring drive set in step 28 will naturally be applied. The amount becomes 0.

In step 29, the soft switch 16 read this time is
The state is stored as the "previous soft switch state" for setting the distance ring drive amount in accordance with the next change in the state of the soft switch, and the setting of the distance ring drive amount is completed.

When entering the distance ring drive in step 23, as shown in FIG.
The built-in pulse counter is reset to 0. Next, in step 31, a pulse counter is generated according to the amount of movement of the focusing lens l-1 obtained by the pulse plate 2, the light emitting diode 4, and the photodiode 5. The pulse state is read and stored in step 32 as the initial value of the previous pulse state. In step 33, it is determined whether the set distance ring driving amount is positive or negative, and in step 34 or 35, driving of the distance ring is started in the corresponding direction (inching or extending). In step 36, the count value of the timer 15 is reset to 0 and time measurement is started.

In step 37, the state of the pulse generated in response to the driving of the distance ring is read, and in step 38, the current pulse state and the previous pulse state are compared. If they are not equal to 0, in step 39, the current pulse state is The state is stored as the state of the previous pulse, the drive direction is determined in step 40, and in the case of retraction, 1 is added to the value of the pulse counter in step 41, and in the case of extension, the drive direction is determined in step 4.
2, count 1 from the value of the pulse counter. Step 4
At step 3, it is determined whether or not the value of the pulse counter has become equal to the distance ring driving amount, and if they are equal, the driving is stopped at step 44, and the distance ring driving is ended. If the pulse width is still not equal, continue driving, reset the timer 15 to obtain the pulse width again, and perform steps 36 to 4.
Repeat routine 3.

In step 38, if it is determined that the state of the pulse has not changed between this time and the previous time, the time value of the timer 15, which starts measuring from the start of driving or the rising or falling time of the pulse, indicates that the timer 15 is running. The time when the pulse width is not recognized as the pulse width (the time the pulse remains at either high level or low level), that is, the time when it should be recognized as stopped, must be reached. For example, by repeating the routine of steps 37, 38, and 45, the drive is continued as it is. If the state has been reached, step 46 indicates that A is in a non-driveable state.
This is indicated to the F control device 20, and the process proceeds to step 44, where the drive is stopped and the distance ring drive is completed.

According to this embodiment, it is possible to eliminate the focus shift caused by soft switching without requiring any complicated mechanical interlocking mechanism between the soft lens 1-2 and the focusing lens 1-1. . What is newly required for this purpose is
All that is required is to provide the soft switch 1B and to add the functions shown in FIG. 4 to the microcomputer 14.

(Correspondence between Invention and Embodiments) In the illustrated embodiment, the soft switch 16 corresponds to the detection means, the motor 7 corresponds to the drive means, and the microcomputer 14 corresponds to the calculation means of the present invention.

(Modification) The present invention can also be applied to a single-lens reflex camera system that does not have autofocus *tpt. In that case, a drive means such as a dedicated motor is provided to correct the focus shift caused by the soft switching.

(Effects of the Invention) As explained above, according to the present invention, there is provided a detection means for detecting the movement of the software lens, and a focusing lens that offsets the focal shift caused by the detected movement of the software lens. calculation means for calculating the amount of movement of the focusing lens and outputting the calculated amount to the driving means for moving the focusing lens;
Since the focus shift caused by software switching is automatically corrected, the focus shift caused by software switching can be eliminated.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of the present invention, FIG. 2 is a diagram showing the output state of a soft switch according to an embodiment of the present invention, and FIGS. 3 to 5 are operation diagrams of an embodiment of the present invention. It is a flow chart explaining. l...Photographing lens, 1-1...Focal adjustment lens, l-2...Automatic lens, software lens, 2...
...Pulse plate, 7...Motor, 14...
...Microcomputer, 16...Soft switch.

Claims (1)

[Claims] (1) A soft lens that is arranged to be movable in the optical axis direction and that selectively changes the soft focus effect by movement;
a focusing lens disposed movably in the optical axis direction and adjusting the focus by movement; a driving means for moving the focusing lens; a detecting means for detecting movement of the software lens; A soft focus lens device comprising calculation means for calculating an amount of movement of the focusing lens that offsets a shift in focus caused by movement of the soft lens, and outputting the calculated amount to the driving means.